fx derivatives 1. fx futures and forwards. fx risk example: abyz, a u.s. company, imports wine from...

FX Derivatives

1. FX Futures and Forwards

FX RISK

Example: ABYZ, a U.S. company, imports wine from France. ABYZ has to pay EUR 5,000,000 on May 2. Today, February 2, the exchange rate is 1.15 USD/EUR.

Situation: Payment due on Mayy 2: EUR 5,000,000.

SSep 2 = 1.15 USD/EUR.

Problem: St is difficult to forecast Uncertainty.

Uncertainty Risk.

Example: on January 2, St > or < 1.15 USD/EUR.

On SFeb 2, ABYZ total payment would be:

EUR 5,000,000 x 1.15 USD/EUR = USD 5,750,000.

On May 2 we have two potential scenarios:

If the SMay 2 (USD appreciates) ABYZ will pay less USD.

If the SMay 2 (USD depreciates) ABYZ will pay more USD.

→ The second scenario introduces Currency Risk.

FX Risk: Hedging Tools

• Hedging Tools:

- Market-tools:

Futures/Forward

Money Market (IRPT strategy)

Options

- Firm-tools:

Pricing in domestic currency

Risk-sharing

Matching Outflows and Inflows

Futures or Forward FX Contracts

Forward markets:Tailor-made contracts.

Location: none.

Reputation/collateral guarantees the contract.

Futures markets: Standardized contracts.

Location: organized exchanges

Clearinghouse guarantees the contract.

Comparison of Futures and Forward Contracts

Futures Forward

Amount Standardized Negotiated

Delivery Date Standardized Negotiated

Counter-party Clearinghouse Bank

Collateral Margin account Negotiated

Market Auction market Dealer market

Costs Brokerage and exchange fees Bid-ask spread

Secondary market Very liquid Highly illiquid

Regulation Government Self-regulated

Location Central exchange floor Worldwide

FX Futures/Forwards: Basic Terminology

Short: Agreement to Sell.

Long: Agreement to Buy.

Contract size: number of units of foreign currency in each contract.

CME expiration dates: Mar, June, Sep, and Dec + Two nearby months

Margin account: Amount of money you deposit with a broker to cover your possible losses involved in a futures/forward contract.

Initial Margin: Initial level of margin account.

Maintenance Margin: Lower bound allowed for margin account.

A margin account is like a checking account you have with your broker, but it is marked to market. If your contracts make (lose) money, money is added to (subtracted from) your account.

If margin account goes below maintenance level, a margin call is issue:

you have to add funds to restore the account to the initial level.

Example: GBP/USD CME futures

initial margin: USD 2,800

maintenance margin: USD 2,100

If losses do not exceed USD 700, no margin call will be issued.

If losses accumulate to USD 850, USD 850 will be added to account. ¶

Using FX Futures/Forwards

• Iris Oil Inc., a Houston-based energy company, will transfer CAD 300 million to its USD account in 90 days. To avoid FX risk, Iris Oil decides to short a USD/CAD Forward contract.

Data:

St = .8451 USD/CAD

Ft,90-day = .8493 USD/CAD

In 90-days, Iris Oil will receive with certainty:

(CAD 300M) x (.8493 USD/CAD) = USD 254,790,000.

Note: The exchange rate at t+90 (St+90) is, now, irrelevant.

The payoff diagram makes it clear: Using futures/forwards can isolate a company from uncertainty.

St+90

USD 254.79MForward

Amount Received in t+90

Hedging with FX Futures Contracts

• FX Hedger

FX Hedger reduces the exposure of an underlying position to currency risk using (at least) another position (hedging position).

Basic Idea of a Hedger

A change in value of an underlying position is compensated with the change in value of a hedging position.

Goal: Make the overall position insensitive to changes in FX rates.

Hedger has an overall portfolio (OP) composed of (at least) 2 positions:

(1) Underlying position (UP)

(2) Hedging position (HP) with negative correlation with UP

Value of OP = Value of UP + Value of HP.

Perfect hedge: The Value of the OP is insensitive to FX changes.

• Types of FX hedgers using futures:

i. Long hedger: Underlying position: short in the foreign currency. Hedging position: long in currency futures.

ii. Short hedger: Underlying position: long in the foreign currency.

Hedging position: short in currency futures.

Note: Hedging with futures is very simple: Take an opposite position!

Q: What is the proper size of the Hedging position?A:

Basic (Naive) Approach: Equal hedge

Modern Approach: Optimal hedge

• The Basic Approach: Equal hedgeEqual hedge:

Size of Underlying position = Size of Hedging position.

Example: Long Hedge and Short Hedge(A) Long hedge.A U.S. investor has to pay in 90 days 2.5 million Norwegian kroners.

UP: Short NOK 2.5 M.

HP: Long 90 days futures for NOK 2.5 M.

(B) Short hedge.A U.S. investor has GBP 1 million invested in British gilts.

UP: Long GBP 1 M.

HP: Short futures for GBP 1 M.

Define:Vt: value of the portfolio of foreign assets measured in GBP at time t.

Vt*: value of the portfolio of foreign assets measured in USD at time t.

Example (continuation): Calculating the short hedger's profits.It’s September 12. An investor decides to hedge using Dec futures.Situation:

UP: British bonds worth GBP 1,000,000.

FSep 12,Dec = 1.55 USD/GBP

Futures contract size: GBP 62,500.

SSep 12: 1.60 USD/GBP.

number of contracts = ?

HP: Investor sells

GBP 1,000,000 / (62,500 GBP/contract) = 16 contracts.

Example (continuation): Calculating the short hedger's profits.• On October 29, we have:

Sep 12

Oct 29

ChangeVt (GBP)

1,000,000

1,000,000

0Vt* (USD)

1,600,000

1,500,000

-100,000St

1.60

1.50

0.10Ft,T=Dec

1.55

1.45

0.10

The USD change in UP ("long GBP bond position") is given by:

Vt* - V0* = VtSt - V0S0 = V0 x (St - S0)

= USD 1.5M - USD 1.6M = USD -0.1M.

The USD change in HP ("short GBP futures position") is given by:

-V0 x (Ft,T – F0,T) = Realized gain

(GBP -1M) x USD/GBP (1.45 - 1.55) = USD 0.1M.

USD Change in OP = USD Change of UP + USD Change of HP = 0

=> This is a perfect hedge! ¶

Note: In the previous example, we had a perfect hedge. We were lucky!VSep 12 = VOct 29 = GBP 1,000,000

(FSep 12,Dec - SSep 12 ) = (FOct 29,Dec – SOct 29 ) = USD .05

An equal position hedge is not a perfect hedge if:(1) Vt changes.

(2) The basis (Ft-St) changes.

• Changes in Vt

If Vt changes, the value of OP will also change.

Example: Reconsider previous example. On October 29: FOct 29,Dec = 1.45 USD/GBP.

SOct 29= 1.50 USD/GBP.

VOct 29 increases 2%.

Size of UP (long): GBP 1,020,000. Size of HP (short): GBP 1,000,000.

USD change in UP (long GBP bond) is

VOct 29* (long) = GBP 1.02M x 1.50 USD/GBP = USD 1,530,000

VSep 12* (long) = GBP 1.0M x 1.60 USD/GBP = USD 1,600,000

USD Change in Vt* (long) = USD -70,000

USD Change in HP (short GBP futures) = USD 100,000.

Net change on the overall portfolio = USD -70,000 + USD 100,000= USD 30,000. ¶

=> Not a perfect hedge: only the principal (GPB 1 million) was hedged!

• Basis ChangeDefinition: Basis = Futures price - Spot Price = Ft,T - St.

Basis risk arises if Ft,T - St deviates from a constant basis per period.

• If there is no basis risk completely hedge the underlying position (including changes in Vt).

• If the basis changes "equal" hedge is not perfect.

• In general, if (Ft,T - St) (or "weakens"), the short hedger loses.

if (Ft,T - St) (or "strengthens"), the short hedger wins.

Example (continuation): Now, on October 29, the market data is: FOct 29,Dec = 1.50 USD/GBP.

SOct 29 = 1.50 USD/GBP.

BasisSep 12 = FSep 12,Dec - SSep 12 = 1.55 -1.60 = -.05 (5 points)

BasisOct 29 = FOct 29,Dec - SOct 29 = 1.50 -1.50 = 0.

Compared to previous Example, basis increased from -5 points to 0 points. (The basis has weakened from USD .05 to USD 0.)

Date Long Position ("Buy") Dec Futures ("Sell")September 12 1,600,000 1,550,000October 29 1,500,000 1,500,000Gain -100,000 50,000

Note: (Ft-St) Short hedger's profits loses (USD -50,000).

Equal hedge is not perfect! ¶

• Basis risk• Recall IRPT. For the USD/GBP exchange rate, we have:

Assume T =360. After some algebra, we have:

The basis is proportional to the interest rate differential. As interest rates change, the basis changes too.

GBP

GBPUSDttTt i

iiSSF

1,

)360

1(

)360

1(

, Txi

Txi

SF

GBP

USD

tTt

• Derivation of the Optimal hedge ratio

Additional notation:ns: number of units of foreign currency held.

nf: number of futures foreign exchange units held.

(Number of contracts = nf/size of the contract)

πh,t: uncertain profit of the hedger at time t.

h = hedge ratio =(nf/ns) = number of futures per spot in UP.

We want to calculate h* (optimal h). For that, we minimize the variability of πh,t.

πh,T = ΔST ns + ΔFT,T nf (Or, πh,T / ns = ΔST + h ΔFT,T.)

We want to select h to minimize: Var(πh,T/ns) = Var(ΔST) + h2 Var(ΔFT,T) + 2 h Covar(ΔST,ΔFT,T)

h*= -σSF/σF2.

• Optimal hedge ratio: h* = -σSF/σF2.

(A covariance over a variance => A (OLS) regression estimate!)

Remarks:(1) h* is the (negative) slope of an OLS regression of ΔST against ΔFT:

ΔSt = μ + θ ΔFt,T + εt => h* = - b (OLS estimate of θ)

(2) Recall IRPT: Ft,T = St (1 + id)/(1 + if) = δ St.

Calculating changes: ΔFt,T = δ ΔSt => ΔSt = (1/δ) ΔFt,T

Then, h*=-b estimates (1/δ) in the IRPT equation: δ=1/h*.

(3) Two cases regarding hedge ratios:- When Ft,T is denominated in the same currency as the asset being

hedged, we can use IRPT to get the hedge ratio, h*.

- When Ft,T is denominated in a different currency than the asset being

hedged (cross-hedging), OLS provides an estimate of h*.

• OLS Estimation of the Optimal Hedge RatioConsider the following regression equation:

ΔSt = μ + θ ΔFt,T + εt.

=> OLS produces b = σSF/σF2 = - h*

• A hedge is perfect only if ΔSt and ΔFt,T are perfectly correlated:

to have a perfect hedge we need εt to be always zero.

• The R² of regression measures the efficiency of a hedge.

Example: We estimate a hedge ratio using OLS:We use five years of monthly data for a total of 60 observations.

ΔSt = .001 + .92 ΔFt,T, R2 = .95.

h = -.92. nf/size of the contract = h ns / size of the contract =

= -.92 x 1,000,000 / 62,500 = -14.7 15 contracts sold! ¶

• The high R2 points out the efficiency of the hedge:

Changes in futures USD/GBP prices are highly correlated with changes in USD/GBP spot prices.

Note: A different interpretation of the R2: Hedging reduces the variance of the CF by an estimated 95%.

Remark: OLS estimates of the hedge ratio are based on historical data. The hedge we construct is for a future period. Problem!

• Time-varying hedge ratios: ht* = -σSF,t /σF,t2

GARCH models: The variance changes with the arrival of news.

A GARCH(1,1) specification is a good approximation: 2

S,t = S0 + S1 2S,t-1 + ßS1 2

S,t-1

S,t-1 = forecasting error at t-1. (Under RWM, S,t-1 is the change in St-1.)

Recall that GARCH models accommodate two features of financial data:- Large changes tend to be followed by large changes of either sign.- Distribution is leptokurtic –i.e., fatter tails than a normal.

• Statistical packages that estimate GARCH models: SAS, E-views.

To estimate a time-varying hedge ratio, you need a model for the bivariate distribution of St and Ft,T (to get covariances)..

Hedging Strategies

• Three problems associated with hedging in the futures market:

- Contract size is fixed.

- Expiration dates are also fixed.

- Choice of underlying assets in the futures market is limited.

• Imperfect hedges:

- Delta-hedge when the maturities do not match

- Cross-hedge when the currencies do not match.

• Another important consideration: liquidity.

• Contract Terms (Delta Hedging)Major decision: choice of contract terms.

• Advantages of a short-term hedging:

- Short-term Ft,T closely follows St.

Recall linearized IRPT : Ft,T ≈ St [1+ (id - if)xT/360]

As T → 0, Ft,T → St (UP and HP will move closely)

- Short-term Ft,T has greater trading volume (more liquid).

• Disadvantages of a short-term hedging:- Short-term hedges need to be rolled over: cost!

• Contract Terms (Delta Hedging)

• Short-term hedges are usually done with short-term contracts.

• Longer-term hedges are done using three basic contract terms:- Short-term contracts, which must be rolled over at maturity;- Contracts with a matching maturity (usually done with a

forward);- Longer-term contracts with a maturity beyond the hedging

period.

Three Hedging Strategies for an Expected Hedge Period of 6 Months

• Different Currencies (Cross-Hedging)Q: Under what circumstances do investors use cross-hedging?

• An investor may prefer a cross-hedge if:

(1) There is no available contract for the currency she wishes to hedge.Futures contracts are actively traded for the major currencies (at the CME: GBP, JPY, EUR, CHF, MXN, CAD, BRR).Example: Want to hedge a NOK position using CME futures:

you must cross-hedge.

(2) Cheaper and easier to use a different contract.Banks offer forward contracts for many currencies. These contracts might not be liquid (and expensive!).

• Empirical results:(i) Optimal same-currency-hedge ratios are very effective. (ii) Optimal cross-hedge ratios are quite unstable.

Example: Calculation of Cross-hedge ratios.Situation:- Veron SA, a U.S. firm, has to pay HUF 10 million in 180 days. - No futures contract on the HUF.- Liquid contracts on currencies highly correlated to the HUF.

Solution: Cross-hedge using the EUR and the GBP. • Calculation of the appropriate OLS hedge ratios.Dependent variable: USD/HUF changes Independent variables: USD/EUR 6-mo. futures changes

USD/GBP 6-mo. futures changes Exchange rates: .0043 EUR/HUF

.0020 GBP/HUFSUSD/HUF = α + .84 FUSD/EUR + 0.76 FUSD/GBP, R2 = 0.81.

The number of contracts bought by Veron SA is given by:EUR: (-10,000,000 x .0043/125,000) x -0.84 = 2.89 3 contracts.GBP: (-10,000,000 x .0020/62,500) x -0.76 = 3.20 3 contracts. ¶